#pragma once #include #include "AP_HAL_Namespace.h" class AP_HAL::Util { public: int snprintf(char* str, size_t size, const char *format, ...); int vsnprintf(char* str, size_t size, const char *format, va_list ap); void set_soft_armed(const bool b) { soft_armed = b; } bool get_soft_armed() const { return soft_armed; } void set_capabilities(uint64_t cap) { capabilities |= cap; } void clear_capabilities(uint64_t cap) { capabilities &= ~(cap); } uint64_t get_capabilities() const { return capabilities; } virtual const char* get_custom_log_directory() { return nullptr; } virtual const char* get_custom_terrain_directory() const { return nullptr; } // get path to custom defaults file for AP_Param virtual const char* get_custom_defaults_file() const { return HAL_PARAM_DEFAULTS_PATH; } // run a debug shall on the given stream if possible. This is used // to support dropping into a debug shell to run firmware upgrade // commands virtual bool run_debug_shell(AP_HAL::BetterStream *stream) = 0; enum safety_state { SAFETY_NONE, SAFETY_DISARMED, SAFETY_ARMED }; /* return state of safety switch, if applicable */ virtual enum safety_state safety_switch_state(void) { return SAFETY_NONE; } /* set system clock in UTC microseconds */ virtual void set_system_clock(uint64_t time_utc_usec) {} /* get system clock in UTC milliseconds */ uint64_t get_system_clock_ms() const; /* get system time in UTC hours, minutes, seconds and milliseconds */ void get_system_clock_utc(int32_t &hour, int32_t &min, int32_t &sec, int32_t &ms) const; uint32_t get_time_utc(int32_t hour, int32_t min, int32_t sec, int32_t ms) const; /* get system identifier (eg. serial number) return false if a system identifier is not available Buf should be filled with a printable string and must be null terminated */ virtual bool get_system_id(char buf[40]) { return false; } /** how much free memory do we have in bytes. If unknown return 4096 */ virtual uint32_t available_memory(void) { return 4096; } /** return commandline arguments, if available */ virtual void commandline_arguments(uint8_t &argc, char * const *&argv) { argc = 0; } /* ToneAlarm Driver */ virtual bool toneAlarm_init() { return false;} virtual void toneAlarm_set_tune(uint8_t tune) {} virtual void _toneAlarm_timer_tick() {} /* return a stream for access to a system shell, if available */ virtual AP_HAL::Stream *get_shell_stream() { return nullptr; } /* Support for an imu heating system */ virtual void set_imu_temp(float current) {} /* Support for an imu heating system */ virtual void set_imu_target_temp(int8_t *target) {} /* performance counter calls - wrapper around original PX4 interface */ enum perf_counter_type { PC_COUNT, /**< count the number of times an event occurs */ PC_ELAPSED, /**< measure the time elapsed performing an event */ PC_INTERVAL /**< measure the interval between instances of an event */ }; typedef void *perf_counter_t; virtual perf_counter_t perf_alloc(perf_counter_type t, const char *name) { return nullptr; } virtual void perf_begin(perf_counter_t h) {} virtual void perf_end(perf_counter_t h) {} virtual void perf_count(perf_counter_t h) {} // create a new semaphore virtual Semaphore *new_semaphore(void) { return nullptr; } // allocate and free DMA-capable memory if possible. Otherwise return normal memory virtual void *dma_allocate(size_t size) { return malloc(size); } virtual void dma_free(void *ptr, size_t size) { return free(ptr); } protected: // we start soft_armed false, so that actuators don't send any // values until the vehicle code has fully started bool soft_armed = false; uint64_t capabilities = 0; };